Video URL
https://pirsa.org/19050008Einstein and Quantum Mechanics: It’s Not What You Think
APA
Stone, A.D. (2019). Einstein and Quantum Mechanics: It’s Not What You Think. Perimeter Institute for Theoretical Physics. https://pirsa.org/19050008
MLA
Stone, A. Douglas. Einstein and Quantum Mechanics: It’s Not What You Think. Perimeter Institute for Theoretical Physics, May. 15, 2019, https://pirsa.org/19050008
BibTex
@misc{ scivideos_PIRSA:19050008, doi = {10.48660/19050008}, url = {https://pirsa.org/19050008}, author = {Stone, A. Douglas}, keywords = {Other Physics}, language = {en}, title = {Einstein and Quantum Mechanics: It{\textquoteright}s Not What You Think}, publisher = {Perimeter Institute for Theoretical Physics}, year = {2019}, month = {may}, note = {PIRSA:19050008 see, \url{https://scivideos.org/index.php/pirsa/19050008}} }
A. Douglas Stone Yale University
Abstract
Einstein is well known for his rejection of quantum mechanics in the form it emerged from the work of Heisenberg, Born and Schrodinger in 1926. Much less appreciated are the many seminal contributions he made to quantum theory prior to his final scientific verdict: that the theory was at best incomplete. In this talk I present an overview of Einstein’s many conceptual breakthroughs and place them in historical context. I argue that Einstein, much more than Planck, introduced the concept of quantization of energy in atomic mechanics. Einstein proposed the photon, the first force-carrying particle discovered for a fundamental interaction, and put forward the notion of wave-particle duality, based on sound statistical arguments 14 years before De Broglie’s work. He was the first to recognize the intrinsic randomness in atomic processes, and introduced the notion of transition probabilities, embodied in the A and B coefficients for atomic emission and absorption. He also preceded Born in suggesting the interpretation of wave fields as probability densities for particles, photons, in the case of the electromagnetic field. Finally, stimulated by Bose, he introduced the notion of indistinguishable particles in the quantum sense and derived the condensed phase of bosons, which is one of the fundamental states of matter at low temperatures. His work on quantum statistics in turn directly stimulated Schrodinger towards his discovery of the wave equation of quantum mechanics. It was only due to his rejection of the final theory that he is not generally recognized as the most central figure in this historic achievement of human civilization.